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runtime.c
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runtime.c
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#include "objc/runtime.h"
#include "selector.h"
#include "class.h"
#include "protocol.h"
#include "ivar.h"
#include "method.h"
#include "lock.h"
#include "dtable.h"
#include "gc_ops.h"
/* Make glibc export strdup() */
#if defined __GLIBC__
#define __USE_BSD 1
#endif
#include <string.h>
#include <stdio.h>
#include <stdlib.h>
#include <assert.h>
#define CHECK_ARG(arg) if (0 == arg) { return 0; }
static inline void safe_remove_from_subclass_list(Class cls);
PRIVATE void objc_resolve_class(Class);
void objc_send_initialize(id object);
/**
* Calls C++ destructors in the correct order.
*/
PRIVATE void call_cxx_destruct(id obj)
{
static SEL cxx_destruct;
if (NULL == cxx_destruct)
{
cxx_destruct = sel_registerName(".cxx_destruct");
}
// Don't call object_getClass(), because we want to get hidden classes too
Class cls = classForObject(obj);
while (cls)
{
// If we're deallocating a class with a hidden class, then the
// `.cxx_destruct` method may deallocate the class.
Class currentClass = cls;
cls = cls->super_class;
if (currentClass->cxx_destruct)
{
currentClass->cxx_destruct(obj, cxx_destruct);
}
}
}
static void call_cxx_construct_for_class(Class cls, id obj)
{
static SEL cxx_construct;
if (NULL == cxx_construct)
{
cxx_construct = sel_registerName(".cxx_construct");
}
if (cls->super_class)
{
call_cxx_construct_for_class(cls->super_class, obj);
}
if (cls->cxx_construct)
{
cls->cxx_construct(obj, cxx_construct);
}
}
PRIVATE void call_cxx_construct(id obj)
{
call_cxx_construct_for_class(classForObject(obj), obj);
}
/**
* Looks up the instance method in a specific class, without recursing into
* superclasses.
*/
static Method class_getInstanceMethodNonrecursive(Class aClass, SEL aSelector)
{
for (struct objc_method_list *methods = aClass->methods;
methods != NULL ; methods = methods->next)
{
for (int i=0 ; i<methods->count ; i++)
{
Method method = method_at_index(methods, i);
if (sel_isEqual(method->selector, aSelector))
{
return method;
}
}
}
return NULL;
}
BOOL class_addIvar(Class cls, const char *name, size_t size, uint8_t alignment,
const char *types)
{
CHECK_ARG(cls);
CHECK_ARG(name);
CHECK_ARG(types);
// You can't add ivars to initialized classes. Note: We can't use the
// resolved flag here because class_getInstanceVariable() sets it.
if (objc_test_class_flag(cls, objc_class_flag_initialized))
{
return NO;
}
if (class_getInstanceVariable(cls, name) != NULL)
{
return NO;
}
struct objc_ivar_list *ivarlist = cls->ivars;
if (NULL == ivarlist)
{
cls->ivars = malloc(sizeof(struct objc_ivar_list) + sizeof(struct objc_ivar));
cls->ivars->size = sizeof(struct objc_ivar);
cls->ivars->count = 1;
}
else
{
ivarlist->count++;
// objc_ivar_list contains one ivar. Others follow it.
cls->ivars = realloc(ivarlist, sizeof(struct objc_ivar_list) +
(ivarlist->count) * sizeof(struct objc_ivar));
}
Ivar ivar = ivar_at_index(cls->ivars, cls->ivars->count - 1);
ivar->name = strdup(name);
ivar->type = strdup(types);
ivarSetAlign(ivar, alignment);
// Round up the offset of the ivar so it is correctly aligned.
long offset = cls->instance_size;
if (alignment != 0)
{
offset >>= alignment;
if (offset << alignment != cls->instance_size)
{
offset++;
}
offset <<= alignment;
}
ivar->offset = (int*)(uintptr_t)offset;
// Increase the instance size to make space for this.
cls->instance_size = offset + size;
return YES;
}
BOOL class_addMethod(Class cls, SEL name, IMP imp, const char *types)
{
CHECK_ARG(cls);
CHECK_ARG(name);
CHECK_ARG(imp);
CHECK_ARG(types);
const char *methodName = sel_getName(name);
struct objc_method_list *methods;
for (methods=cls->methods; methods!=NULL ; methods=methods->next)
{
for (int i=0 ; i<methods->count ; i++)
{
Method method = method_at_index(methods, i);
if (strcmp(sel_getName(method->selector), methodName) == 0)
{
return NO;
}
}
}
methods = malloc(sizeof(struct objc_method_list) + sizeof(struct objc_method));
methods->next = cls->methods;
methods->size = sizeof(struct objc_method);
cls->methods = methods;
methods->count = 1;
struct objc_method *m0 = method_at_index(methods, 0);
m0->selector = sel_registerTypedName_np(methodName, types);
m0->types = strdup(types);
m0->imp = imp;
if (classHasDtable(cls))
{
add_method_list_to_class(cls, methods);
}
return YES;
}
BOOL class_addProtocol(Class cls, Protocol *protocol)
{
CHECK_ARG(cls);
CHECK_ARG(protocol);
if (class_conformsToProtocol(cls, protocol)) { return NO; }
struct objc_protocol_list *protocols =
malloc(sizeof(struct objc_protocol_list) + sizeof(Protocol*));
if (protocols == NULL) { return NO; }
protocols->next = cls->protocols;
protocols->count = 1;
protocols->list[0] = protocol;
cls->protocols = protocols;
return YES;
}
Ivar * class_copyIvarList(Class cls, unsigned int *outCount)
{
if (outCount != NULL)
{
*outCount = 0x0;
}
CHECK_ARG(cls);
struct objc_ivar_list *ivarlist = NULL;
unsigned int count = 0;
unsigned int index;
Ivar *list;
if (Nil != cls)
{
ivarlist = cls->ivars;
}
if (ivarlist != NULL)
{
count = ivarlist->count;
}
if (outCount != NULL)
{
*outCount = count;
}
if (count == 0)
{
return NULL;
}
list = malloc((count + 1) * sizeof(struct objc_ivar *));
list[count] = NULL;
count = 0;
for (index = 0; index < ivarlist->count; index++)
{
list[count++] = ivar_at_index(ivarlist, index);
}
return list;
}
Method * class_copyMethodList(Class cls, unsigned int *outCount)
{
if (outCount != NULL)
{
*outCount = 0x0;
}
CHECK_ARG(cls);
unsigned int count = 0;
Method *list;
struct objc_method_list *methods;
if (cls != NULL)
{
for (methods = cls->methods; methods != NULL; methods = methods->next)
{
count += methods->count;
}
}
if (outCount != NULL)
{
*outCount = count;
}
if (count == 0)
{
return NULL;
}
list = malloc((count + 1) * sizeof(struct objc_method *));
list[count] = NULL;
count = 0;
for (methods = cls->methods; methods != NULL; methods = methods->next)
{
unsigned int index;
for (index = 0; index < methods->count; index++)
{
list[count++] = method_at_index(methods, index);
}
}
return list;
}
Protocol*__unsafe_unretained* class_copyProtocolList(Class cls, unsigned int *outCount)
{
if (outCount != NULL)
{
*outCount = 0x0;
}
CHECK_ARG(cls);
struct objc_protocol_list *protocolList = NULL;
struct objc_protocol_list *list;
unsigned int count = 0;
Protocol **protocols;
if (Nil != cls)
{
protocolList = cls->protocols;
}
for (list = protocolList; list != NULL; list = list->next)
{
count += list->count;
}
if (outCount != NULL)
{
*outCount = count;
}
if (count == 0)
{
return NULL;
}
protocols = malloc((count + 1) * sizeof(Protocol *));
protocols[count] = NULL;
count = 0;
for (list = protocolList; list != NULL; list = list->next)
{
memcpy(&protocols[count], list->list, list->count * sizeof(Protocol *));
count += list->count;
}
return protocols;
}
id class_createInstance(Class cls, size_t extraBytes)
{
CHECK_ARG(cls);
if (sizeof(id) == 4)
{
if (cls == SmallObjectClasses[0])
{
return (id)1;
}
}
else
{
for (int i=0 ; i<4 ; i++)
{
if (cls == SmallObjectClasses[i])
{
return (id)(uintptr_t)((i<<1)+1);
}
}
}
if (Nil == cls) { return nil; }
// Don't try to allocate an object of size 0, because there's no space for
// its isa pointer!
if (cls->instance_size < sizeof(Class)) { return nil; }
id obj = gc->allocate_class(cls, extraBytes);
obj->isa = cls;
checkARCAccessorsSlow(cls);
call_cxx_construct(obj);
return obj;
}
id object_copy(id obj, size_t size)
{
Class cls = object_getClass(obj);
id cpy = class_createInstance(cls, size - class_getInstanceSize(cls));
memcpy(((char*)cpy + sizeof(id)), ((char*)obj + sizeof(id)), size - sizeof(id));
return cpy;
}
id object_dispose(id obj)
{
call_cxx_destruct(obj);
gc->free_object(obj);
return nil;
}
Method class_getInstanceMethod(Class aClass, SEL aSelector)
{
CHECK_ARG(aClass);
CHECK_ARG(aSelector);
// If the class has a dtable installed, then we can use the fast path
if (classHasInstalledDtable(aClass))
{
// Do a dtable lookup to find out which class the method comes from.
struct objc_slot2 *slot = objc_get_slot2(aClass, aSelector, NULL);
if (NULL == slot)
{
slot = objc_get_slot2(aClass, sel_registerName(sel_getName(aSelector)), NULL);
if (NULL == slot)
{
return NULL;
}
}
// Slots are the same as methods.
return (struct objc_method*)slot;
}
Method m = class_getInstanceMethodNonrecursive(aClass, aSelector);
if (NULL != m)
{
return m;
}
return class_getInstanceMethod(class_getSuperclass(aClass), aSelector);
}
Method class_getClassMethod(Class aClass, SEL aSelector)
{
return class_getInstanceMethod(object_getClass((id)aClass), aSelector);
}
Ivar class_getClassVariable(Class cls, const char* name)
{
// Note: We don't have compiler support for cvars in ObjC
return class_getInstanceVariable(object_getClass((id)cls), name);
}
size_t class_getInstanceSize(Class cls)
{
if (Nil == cls) { return 0; }
return cls->instance_size;
}
Ivar class_getInstanceVariable(Class cls, const char *name)
{
if (name != NULL)
{
while (cls != Nil)
{
struct objc_ivar_list *ivarlist = cls->ivars;
if (ivarlist != NULL)
{
for (int i = 0; i < ivarlist->count; i++)
{
Ivar ivar = ivar_at_index(ivarlist, i);
if (strcmp(ivar->name, name) == 0)
{
return ivar;
}
}
}
cls = class_getSuperclass(cls);
}
}
return NULL;
}
// The format of the char* is undocumented. This function is only ever used in
// conjunction with class_setIvarLayout().
const char *class_getIvarLayout(Class cls)
{
CHECK_ARG(cls);
return (char*)cls->ivars;
}
const char * class_getName(Class cls)
{
if (Nil == cls) { return "nil"; }
return cls->name;
}
int class_getVersion(Class theClass)
{
CHECK_ARG(theClass);
return theClass->version;
}
const char *class_getWeakIvarLayout(Class cls)
{
assert(0 && "Weak ivars not supported");
return NULL;
}
BOOL class_isMetaClass(Class cls)
{
CHECK_ARG(cls);
return objc_test_class_flag(cls, objc_class_flag_meta);
}
IMP class_replaceMethod(Class cls, SEL name, IMP imp, const char *types)
{
if (Nil == cls) { return (IMP)0; }
SEL sel = sel_registerTypedName_np(sel_getName(name), types);
Method method = class_getInstanceMethodNonrecursive(cls, sel);
if (method == NULL)
{
class_addMethod(cls, sel, imp, types);
return NULL;
}
IMP old = (IMP)method->imp;
method->imp = imp;
return old;
}
void class_setIvarLayout(Class cls, const char *layout)
{
if ((Nil == cls) || (NULL == layout)) { return; }
struct objc_ivar_list *list = (struct objc_ivar_list*)layout;
size_t listsize = sizeof(struct objc_ivar_list) +
sizeof(struct objc_ivar) * (list->count);
cls->ivars = malloc(listsize);
memcpy(cls->ivars, list, listsize);
}
__attribute__((deprecated))
Class class_setSuperclass(Class cls, Class newSuper)
{
CHECK_ARG(cls);
CHECK_ARG(newSuper);
Class oldSuper;
if (Nil == cls) { return Nil; }
{
LOCK_RUNTIME_FOR_SCOPE();
oldSuper = cls->super_class;
if (oldSuper == newSuper) { return newSuper; }
safe_remove_from_subclass_list(cls);
objc_resolve_class(newSuper);
cls->super_class = newSuper;
// The super class's subclass list is used in certain method resolution scenarios.
cls->sibling_class = cls->super_class->subclass_list;
cls->super_class->subclass_list = cls;
if (UNLIKELY(class_isMetaClass(cls)))
{
// newSuper is presumably a metaclass. Its isa will therefore be the appropriate root metaclass.
cls->isa = newSuper->isa;
}
else
{
Class meta = cls->isa, newSuperMeta = newSuper->isa;
// Update the metaclass's superclass.
safe_remove_from_subclass_list(meta);
objc_resolve_class(newSuperMeta);
meta->super_class = newSuperMeta;
meta->isa = newSuperMeta->isa;
// The super class's subclass list is used in certain method resolution scenarios.
meta->sibling_class = newSuperMeta->subclass_list;
newSuperMeta->subclass_list = meta;
}
LOCK_FOR_SCOPE(&initialize_lock);
if (!objc_test_class_flag(cls, objc_class_flag_initialized))
{
// Uninitialized classes don't have dtables to update
// and don't need their superclasses initialized.
return oldSuper;
}
}
objc_send_initialize((id)newSuper); // also initializes the metaclass
objc_update_dtable_for_new_superclass(cls->isa, newSuper->isa);
objc_update_dtable_for_new_superclass(cls, newSuper);
return oldSuper;
}
void class_setVersion(Class theClass, int version)
{
if (Nil == theClass) { return; }
theClass->version = version;
}
void class_setWeakIvarLayout(Class cls, const char *layout)
{
assert(0 && "Not implemented");
}
const char * ivar_getName(Ivar ivar)
{
CHECK_ARG(ivar);
return ivar->name;
}
ptrdiff_t ivar_getOffset(Ivar ivar)
{
CHECK_ARG(ivar);
return *ivar->offset;
}
const char * ivar_getTypeEncoding(Ivar ivar)
{
CHECK_ARG(ivar);
return ivar->type;
}
void method_exchangeImplementations(Method m1, Method m2)
{
if (NULL == m1 || NULL == m2) { return; }
IMP tmp = (IMP)m1->imp;
m1->imp = m2->imp;
m2->imp = tmp;
}
IMP method_getImplementation(Method method)
{
if (NULL == method) { return (IMP)NULL; }
return (IMP)method->imp;
}
SEL method_getName(Method method)
{
if (NULL == method) { return (SEL)NULL; }
return (SEL)method->selector;
}
IMP method_setImplementation(Method method, IMP imp)
{
if (NULL == method) { return (IMP)NULL; }
IMP old = (IMP)method->imp;
method->imp = imp;
return old;
}
id objc_getRequiredClass(const char *name)
{
CHECK_ARG(name);
id cls = objc_getClass(name);
if (nil == cls)
{
abort();
}
return cls;
}
PRIVATE void freeMethodLists(Class aClass)
{
struct objc_method_list *methods = aClass->methods;
while(methods != NULL)
{
for (int i=0 ; i<methods->count ; i++)
{
free((void*)method_at_index(methods, i)->types);
}
struct objc_method_list *current = methods;
methods = methods->next;
free(current);
}
}
PRIVATE void freeIvarLists(Class aClass)
{
struct objc_ivar_list *ivarlist = aClass->ivars;
if (NULL == ivarlist) { return; }
if (ivarlist->count > 0)
{
// For dynamically created classes, ivar offset variables are allocated
// as a contiguous range starting with the first one.
free(ivar_at_index(ivarlist, 0)->offset);
}
for (int i=0 ; i<ivarlist->count ; i++)
{
Ivar ivar = ivar_at_index(ivarlist, i);
free((void*)ivar->type);
free((void*)ivar->name);
}
free(ivarlist);
}
/*
* Removes a class from the subclass list found on its super class.
* Must be called with the objc runtime mutex locked.
*/
static inline void safe_remove_from_subclass_list(Class cls)
{
// If this class hasn't been added to the class hierarchy, then this is easy
if (!objc_test_class_flag(cls, objc_class_flag_resolved)) { return; }
Class sub = cls->super_class->subclass_list;
if (sub == cls)
{
cls->super_class->subclass_list = cls->sibling_class;
}
else
{
while (sub != NULL)
{
if (sub->sibling_class == cls)
{
sub->sibling_class = cls->sibling_class;
break;
}
sub = sub->sibling_class;
}
}
}
void objc_disposeClassPair(Class cls)
{
if (0 == cls) { return; }
Class meta = ((id)cls)->isa;
// Remove from the runtime system so nothing tries updating the dtable
// while we are freeing the class.
{
LOCK_RUNTIME_FOR_SCOPE();
safe_remove_from_subclass_list(meta);
safe_remove_from_subclass_list(cls);
class_table_remove(cls);
}
// Free the method and ivar lists.
freeMethodLists(cls);
freeMethodLists(meta);
freeIvarLists(cls);
if (cls->dtable != uninstalled_dtable)
{
free_dtable(cls->dtable);
}
if (meta->dtable != uninstalled_dtable)
{
free_dtable(meta->dtable);
}
// Free the class and metaclass
gc->free(meta);
gc->free(cls);
}
Class objc_allocateClassPair(Class superclass, const char *name, size_t extraBytes)
{
// Check the class doesn't already exist.
if (nil != objc_lookUpClass(name)) { return Nil; }
Class newClass = gc->malloc(sizeof(struct objc_class) + extraBytes);
if (Nil == newClass) { return Nil; }
// Create the metaclass
Class metaClass = gc->malloc(sizeof(struct objc_class));
if (Nil == superclass)
{
/*
* Metaclasses of root classes are precious little flowers and work a
* little differently:
*/
metaClass->isa = metaClass;
metaClass->super_class = newClass;
}
else
{
// Initialize the metaclass
// Set the meta-metaclass pointer to the name. The runtime will fix this
// in objc_resolve_class().
// If the superclass is not yet resolved, then we need to look it up
// via the class table.
metaClass->isa = superclass->isa;
metaClass->super_class = superclass->isa;
}
metaClass->name = strdup(name);
metaClass->info = objc_class_flag_meta | objc_class_flag_user_created;
metaClass->dtable = uninstalled_dtable;
metaClass->instance_size = sizeof(struct objc_class);
// Set up the new class
newClass->isa = metaClass;
newClass->super_class = superclass;
newClass->name = strdup(name);
newClass->info = objc_class_flag_user_created;
newClass->dtable = uninstalled_dtable;
newClass->abi_version = 2;
metaClass->abi_version = 2;
if (Nil == superclass)
{
newClass->instance_size = sizeof(struct objc_class*);
}
else
{
newClass->instance_size = superclass->instance_size;
}
return newClass;
}
void *object_getIndexedIvars(id obj)
{
CHECK_ARG(obj);
size_t size = classForObject(obj)->instance_size;
if ((0 == size) && class_isMetaClass(classForObject(obj)))
{
size = sizeof(struct objc_class);
}
return ((char*)obj) + size;
}
Class object_getClass(id obj)
{
CHECK_ARG(obj);
Class isa = classForObject(obj);
while ((Nil != isa) && objc_test_class_flag(isa, objc_class_flag_hidden_class))
{
isa = isa->super_class;
}
return isa;
}
Class object_setClass(id obj, Class cls)
{
CHECK_ARG(obj);
// If this is a small object, then don't set its class.
if (isSmallObject(obj)) { return classForObject(obj); }
Class oldClass = obj->isa;
obj->isa = cls;
return oldClass;
}
const char *object_getClassName(id obj)
{
CHECK_ARG(obj);
return class_getName(object_getClass(obj));
}
void objc_registerClassPair(Class cls)
{
if (cls->ivars != NULL)
{
int *ptrs = calloc(cls->ivars->count, sizeof(int));
for (int i=0 ; i<cls->ivars->count ; i++)
{
ptrs[i] = (int)(intptr_t)ivar_at_index(cls->ivars, i)->offset;
ivar_at_index(cls->ivars, i)->offset = &ptrs[i];
}
}
LOCK_RUNTIME_FOR_SCOPE();
class_table_insert(cls);
objc_resolve_class(cls);
}